CN117179589A - Application method of automatic temperature control burner - Google Patents

Abstract

The invention relates to the technical field of a combustor temperature control method, in particular to an application method of an automatic temperature control combustor, which comprises the following specific steps: the combustion assembly conveys fuel gas through at least two independent fuel gas conveying channels, and the fuel gas burns to transfer heat into the cooking cavity, so that the temperature of the cooking cavity is increased; sensing the temperature in the cooking cavity in real time through a temperature sensing device arranged in the cooking cavity, transmitting corresponding signals to a temperature control device, judging the temperature and the selected cooking required temperature by the temperature control device, and if the temperature is lower than the selected cooking required temperature, continuously transmitting gas to burn by a combustion assembly to transmit heat to the cooking cavity; if the selected cooking temperature is reached, the temperature control device adjusts the combustion assembly to maintain the temperature. The temperature in the cooking cavity is regulated and controlled, mutually independent gas conveying channels work in a coordinated mode, the temperature in the cooking cavity is controlled by quickly regulating firepower, and food can be cooked intelligently by effectively controlling the temperature.

Description

Application method of automatic temperature control burner

Technical Field

The invention relates to the technical field of a combustor temperature control method, in particular to an application method of an automatic temperature control combustor.

Background

The traditional outdoor gas oven can only heat the cooking cavity by one firepower through the combustion furnace end by manual ignition, and the cooking cavity can reach the temperature which is unknown to a user, can be judged only by experience, and can also be adjusted by manual operation. The temperature in the cooking cavity is controlled by adjusting the fire power by a person in the process of roasting food. Such cooking can easily scorch or overcook the food.

There are some control devices to try to replace manual adjustment, such as a pizza oven with a gas combustion function, which comprises a base, a baking tray mechanism, a driving mechanism, a gas combustion mechanism and a oven body, wherein the oven body is arranged on the upper end face of the base, the baking tray mechanism is arranged on the upper end face of the base and is positioned in the oven body, the driving mechanism is arranged on the lower end face of the base, the baking tray mechanism and the driving mechanism are rotationally connected through a rotating shaft penetrating through the base, openings are formed at the front end and the rear end of the oven body, the gas combustion mechanism is arranged at the front end of the oven body, and the gas combustion mechanism is communicated with the oven body. The pizza oven can effectively drive the baking tray mechanism to rotate by arranging the driving mechanism, so that the problem of nonuniform heating of the baking tray in the past is well avoided, and the arranged gas combustion mechanism can realize the regulation and control of the flame size and can rapidly heat and control the temperature. The temperature can be controlled through the rotation of the baking tray, but the temperature of the cooking space in the whole oven body cannot be changed, and only a single fuel gas conveying channel is provided, so that the fire power is not well regulated and controlled, and the temperature control effect is general.

Disclosure of Invention

The invention aims to overcome the defect of common effect of the existing burner temperature control method, and provides an application method of an automatic temperature control burner, which can change the temperature in a cooking space, avoid a single fuel gas conveying channel, and facilitate the regulation and control of firepower, thereby improving the temperature control effect in the cooking process.

In order to solve the technical problems, the invention adopts the following technical scheme:

the application method of the automatic temperature control burner comprises a burner main body and a temperature control device, wherein a cooking cavity for cooking food and a combustion assembly for conveying fuel to burn and providing heat for the cooking cavity are arranged in the burner main body; the application method comprises the following specific steps:

(1) The temperature control device firstly selects the temperature required by cooking according to the type of food placed in the cooking cavity;

(2) The combustion assembly conveys fuel gas through at least two independent fuel gas conveying channels, and the fuel gas burns to transfer heat into the cooking cavity, so that the temperature of the cooking cavity is increased; wherein at least one gas conveying channel is used for generating large fire power so as to quickly raise the temperature in the cooking cavity, and the other gas conveying channel is used for conveying smaller fire power so as to keep the temperature in the cooking cavity warm;

(3) Sensing the temperature in the cooking cavity in real time through a temperature sensing device arranged in the cooking cavity, transmitting corresponding signals to a temperature control device, judging the temperature and the selected cooking required temperature by the temperature control device, and if the temperature is lower than the selected cooking required temperature, continuously transmitting gas to burn by a combustion assembly to transmit heat to the cooking cavity; if the selected temperature required for cooking is reached, the temperature control device controls the combustion assembly, correspondingly controls at least two independent fuel gas conveying channels to match the temperature required for cooking, and keeps the temperature;

(4) Cooking is continued until the food is cooked, and then the temperature control device controls the combustion assembly to stop working.

The temperature sensing device is arranged in the cooking cavity to sense the temperature in the cooking cavity in real time, then a corresponding signal is transmitted to the temperature control device, the temperature control device judges the temperature and the selected cooking required temperature, and if the temperature is lower than the selected cooking required temperature, the combustion assembly continuously transmits gas combustion to transmit heat to the cooking cavity; if the selected temperature required for cooking is reached, the temperature control device controls the combustion assembly, correspondingly controls at least two independent fuel gas conveying channels to match the temperature required for cooking, and keeps the temperature; continuing cooking until the food is cooked, and then controlling the combustion assembly to stop working by the temperature control device so as to achieve the intelligent cooking effect; and the heat is reasonably controlled, so that the energy is saved and the environment is protected. And the combustion assembly is provided with at least two independent gas conveying channels for conveying gas, wherein at least one gas conveying channel is used for generating big firepower so as to quickly raise the temperature in the cooking cavity, the other gas conveying channel is used for conveying smaller firepower, the temperature in the cooking cavity is kept warm, the two mutually independent gas conveying channels work in a coordinated manner, the firepower is convenient to quickly adjust to control the temperature in the cooking cavity, the temperature can be effectively controlled, and the intelligent cooking effect is achieved.

Preferably, in step (3), a bistable electromagnetic valve in the temperature control device is mounted on the gas delivery channel generating large fire power, and the operating state of the gas delivery channel generating large fire power is controlled by opening or closing the bistable electromagnetic valve so as to control the temperature in the cooking cavity. It should be noted that the bistable solenoid valve is only preferable, and other control valve structures are possible, and no limitation is made here.

Preferably, in the step (3), a double-coil electromagnetic valve is installed on the total fuel gas conveying channel of the combustion assembly in the temperature control device, and when the cooking procedure is finished or the burner is abnormally extinguished, the double-coil electromagnetic valve can automatically close the total fuel gas channel to prevent fuel gas leakage. The safety of the burner is improved through the protection effect of the double-coil electromagnetic valve in the loop.

Preferably, in the step (2), a thermocouple assembly is installed at the fire outlet position of the combustion assembly, after the output fuel gas of the combustion assembly is ignited by the thermocouple assembly, the high temperature generated by the burning flame makes the thermocouple assembly generate current to load on the main coil of the double-coil electromagnetic valve, so that the double-coil electromagnetic valve on the total fuel gas conveying channel is in an open state, the fuel gas flows normally, and the normal operation of the burner is maintained.

Preferably, in step (3), when the cooking process is not completed, the flame is extinguished due to strong wind or other abnormal reasons, no current is output from the thermocouple assembly to the main coil of the double-coil electromagnetic valve, and the double-coil electromagnetic valve can close the total fuel gas conveying channel under the action of mechanical elastic force, so that fuel gas leakage is prevented, and safety is ensured.

Preferably, a controller is arranged in the control device, and the controller is electrically connected with the temperature sensing device, the bistable electromagnetic valve and the double-coil electromagnetic valve. The setting is to respond to the temperature in the cooking cavity in real time according to temperature sensing device through the controller, then will correspond the signal transmission in the controller, and the controller carries out operating condition's regulation and control to the combustor through bistable solenoid valve, double coil solenoid valve.

Preferably, the burner body is provided with a direct current power supply for supplying power to the burner body. The direct current power supply is arranged to directly utilize the direct current power supply to supply power to the control device and the whole gas oven under the condition of outdoors or no external power supply, so that the gas oven has diversified application scenes and can be used indoors and outdoors.

Preferably, a pizza stone component for placing pizza to be baked is arranged in the cooking cavity. The pizza stone component is used for facilitating cooking of pizza, and hot air flows through the two combustion units enter the cooking cavity, so that the pizza stone component is heated, and the pizza is intelligently cooked. It should be understood that this is only possible by placing the pizza stone component while cooking pizza, and corresponding containers while cooking other foods, and is not intended to be limiting.

Preferably, the burner body is provided with heat insulation cotton and a reflecting plate at the top of the cooking cavity, the reflecting plate is positioned below the heat insulation cotton, and the reflecting plate is arranged opposite to the pizza stone component. The reflecting plate is arranged to reflect the hot air flow in the cooking cavity as far as possible towards the pizza stone component so as to cook pizza better. The heat insulation cotton is arranged, so that hot air can be prevented from penetrating to the outside of the gas oven, a scalding event occurs, a heat insulation effect can be achieved, heat loss caused by outward flow of heat is avoided, a cooking effect is improved, and energy is saved.

Preferably, in step (2), a baffle is installed near the pizza stone component at the fire-out position of the combustion component, the combustion component outputs fuel to ignite to generate flame, the flame is blocked by the baffle to avoid directly burning the pizza stone component, the air is heated by the flame, the hot air enters the cooking cavity to heat the pizza stone component and form a hot air ring surrounding the pizza stone component, and the food on the pizza stone component is cooked.

Compared with the prior art, the invention has the beneficial effects that:

the temperature sensing device is arranged in the cooking cavity to sense the temperature in the cooking cavity in real time, then a corresponding signal is transmitted to the temperature control device, the temperature control device judges the temperature and the selected cooking required temperature, and if the temperature is lower than the selected cooking required temperature, the combustion assembly continuously transmits gas combustion to transmit heat to the cooking cavity; if the selected temperature required for cooking is reached, the temperature control device controls the combustion assembly, correspondingly controls at least two independent fuel gas conveying channels to match the temperature required for cooking, and keeps the temperature; continuing cooking until the food is cooked, and then controlling the combustion assembly to stop working by the temperature control device so as to achieve the intelligent cooking effect; and the heat is reasonably controlled, so that the energy is saved and the environment is protected. And the combustion assembly is provided with at least two independent gas conveying channels for conveying gas, wherein at least one gas conveying channel is used for generating big firepower so as to quickly raise the temperature in the cooking cavity, the other gas conveying channel is used for conveying smaller firepower, the temperature in the cooking cavity is kept warm, the two mutually independent gas conveying channels work in a coordinated manner, the firepower is conveniently and quickly adjusted to control the temperature in the cooking cavity, and the intelligent cooking effect is achieved.

Drawings

FIG. 1 is a flow chart of a method of application of an automatic temperature controlled burner of the present invention;

FIG. 2 is a functional block diagram of an application method of the automatic temperature control burner of FIG. 1;

FIG. 3 is a schematic diagram of the intelligent temperature control gas oven according to the present invention;

FIG. 4 is a schematic view of the intelligent temperature controlled gas oven of FIG. 3 with the top of the housing open;

FIG. 5 is a schematic view illustrating an internal structure of the intelligent temperature-controlled gas oven of FIG. 3;

FIG. 6 is a top view of FIG. 4;

FIG. 7 is a cross-sectional view taken along the direction A-A of FIG. 6;

fig. 8 is a sectional view in the direction B-B of fig. 6. The method comprises the steps of carrying out a first treatment on the surface of the

Detailed Description

The invention is further described below in connection with the following detailed description. Wherein the drawings are for illustrative purposes only and are shown in schematic, non-physical, and not intended to be limiting of the present patent; for the purpose of better illustrating embodiments of the invention, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the size of the actual product; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

The same or similar reference numbers in the drawings of embodiments of the invention correspond to the same or similar components; in the description of the present invention, it should be understood that, if there is an azimuth or positional relationship indicated by terms such as "upper", "lower", "left", "right", etc., based on the azimuth or positional relationship shown in the drawings, it is only for convenience of describing the present invention and simplifying the description, but it is not indicated or implied that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus terms describing the positional relationship in the drawings are merely illustrative and should not be construed as limitations of the present patent, and specific meanings of the terms described above may be understood by those skilled in the art according to specific circumstances.

Example 1

Referring to fig. 1 to 8, a first embodiment of an application method of an automatic temperature control burner according to the present invention includes a burner body 1 and a temperature control device 2, wherein a cooking cavity 11 for cooking food and a combustion assembly 12 for delivering fuel to burn and providing heat to the cooking cavity 11 are provided in the burner body 1, and the temperature control device 2 is electrically connected with the combustion assembly 12; the application method comprises the following specific steps:

(1) The temperature control device 2 firstly selects the temperature required for cooking according to the type of food placed in the cooking cavity 12;

(2) The combustion assembly 12 transmits fuel gas through at least two independent fuel gas transmission channels, and transmits heat to the cooking cavity 11 through fuel gas combustion, so that the temperature of the cooking cavity 11 is increased; wherein at least one gas delivery passage is used for generating large fire power so as to rapidly raise the temperature in the cooking cavity 11, and the other gas delivery passage is used for delivering smaller fire power so as to keep the temperature in the cooking cavity 11 warm;

(3) Sensing the temperature in the cooking cavity 11 in real time through the temperature sensing device 111 arranged in the cooking cavity 11, transmitting corresponding signals to the temperature control device 2, judging the temperature and the selected cooking required temperature by the temperature control device 2, and if the temperature is lower than the selected cooking required temperature, continuously transmitting gas combustion by the combustion assembly 12 to transmit heat to the cooking cavity 11; if the selected temperature required for cooking has been reached, the temperature control device 2 controls the combustion assembly 12, correspondingly controls at least two independent gas delivery channels to match the temperature required for cooking, and maintains the temperature;

(4) Cooking continues until the food is cooked, and then the temperature control device 2 controls the combustion assembly 12 to stop working.

In step (3), the bistable electromagnetic valve 21 in the temperature control device 2 is installed on the gas transmission channel generating large fire power, and the operating state of the gas transmission channel generating large fire power is controlled by opening or closing the bistable electromagnetic valve 21, so as to control the temperature in the cooking cavity 11. It should be noted that the bistable solenoid valve 21 is only preferable, and other control valve structures are possible, and no limitation is made here.

In this embodiment, the gas delivery passage of the large fire is denoted as a primary gas passage 126, and the other gas delivery passage is used to deliver the smaller fire as a secondary gas passage 127.

In addition, in step (3), the temperature control device 2 is provided with a double-coil electromagnetic valve 22 on the total fuel gas conveying channel 121 of the combustion assembly 12, and when the cooking procedure is completed or the burner is abnormally extinguished, the double-coil electromagnetic valve 22 automatically closes the total fuel gas channel to prevent fuel gas leakage. The safety of the burner is improved through the protection effect of the double-coil electromagnetic valve in the loop.

In step (2), a thermocouple assembly 123 is installed at the fire outlet position of the combustion assembly 12, after the fuel gas output by the combustion assembly 12 is ignited, the thermocouple assembly 123 generates high temperature by the burning flame to load current generated by the thermocouple assembly 123 on the main coil of the double coil electromagnetic valve 22, so that the double coil electromagnetic valve 22 on the channel of the total fuel gas conveying channel 121 is in an open state, fuel gas circulates normally, and the normal operation of the burner is maintained. Before the ignition, the double coil solenoid valve 22 is closed to avoid air leakage. When the burner is ignited, the double-coil electromagnetic valve 22 is opened by using an external power supply to transfer electricity or the direct-current power supply 13 to supply power, and when the burner is ignited for a period of time, the controller 23 controls the working state of the double-coil electromagnetic valve 22, and the current generated by the thermocouple assembly 123 can maintain the double-coil electromagnetic valve 22 to be in an opened state; then, the external power supply is powered or the direct current power supply 13 is temporarily not powered, and the electric power is provided by the electric current generated by the thermocouple assembly 123, so that the electricity-saving effect can be achieved.

The thermocouple assembly 123 is arranged beside the flame of the burner, after the burner is ignited by the thermocouple assembly 123, the high temperature generated by the burning flame enables the thermocouple to generate current to be loaded on the main coil of the double-coil electromagnetic valve, so that the double-coil electromagnetic valve on the total combustion channel of the burner assembly is in an open state, the smooth circulation of fuel gas is maintained, and the normal operation of the burner is maintained. When the cooking program is finished, the controller automatically loads current on the auxiliary coil of the double-coil electromagnetic valve to generate reverse acting force; at this time, the double-coil electromagnetic valve automatically closes the gas main channel under the action of spring force to prevent gas leakage. If the cooking process is not completed, the flame is blown out due to strong wind and the like, and no current is output to the main coil of the double coil electromagnetic valve by the thermocouple. The double-coil electromagnetic valve can close the total gas channel of the burner under the action of mechanical elastic force, so that gas leakage is prevented, and safety is ensured.

In addition, in step (3), when the cooking process is not completed, the flame is extinguished due to the strong wind or other abnormal reasons, no current is output from the thermocouple assembly 123 to the main coil of the dual coil electromagnetic valve 22, and the dual coil electromagnetic valve 22 closes the total fuel gas delivery channel 121 under the action of mechanical spring force, so as to prevent fuel gas leakage and ensure safety.

It should be noted that the basic working principle of the double-coil electromagnetic valve is as follows: after the single coil is powered, the mechanical part of the valve core acts, and after the power is lost, the valve core returns to the original obtained position by the mechanical force. The double coils act on the mechanical parts after the main coil is powered on, and the positions are unchanged after the main coil is powered off. The secondary coil is electrified, the mechanical part is changed from the position 1 to the position 2, and the secondary coil is maintained after the secondary coil is powered off. The self-locking self-holding type double-coil control is adopted, the upper coil is used for opening, the side coil is used for closing, the required working state can be ensured by only using one pulse signal of the corresponding coil and instant power on, the energy consumption is low, the flow is sufficient, and the service life is long. Similar to a "three-position four-way valve" or a "three-position two-way valve". Three-position, popular speaking, is that there are three gears 1/0/2. The valve core is driven to 1 when the main coil is powered on, and returns to 0 when the main coil is powered off. The valve core is routed 2 when the secondary coil is powered up, and returns to 0 when the secondary coil is powered down.

The controller 23 is provided in the control device 2, and the controller 23 is electrically connected to the temperature sensing device 111, the bistable solenoid valve 21, and the double coil solenoid valve 22. The setting is to respond to the temperature in the cooking cavity in real time according to temperature sensing device through the controller, then will correspond the signal transmission in the controller, and the controller carries out operating condition's regulation and control to the combustor through bistable solenoid valve, double coil solenoid valve.

In addition, the burner body 1 is provided with a direct current power supply 13 for supplying power to the burner body 1. The direct current power supply is arranged to directly utilize the direct current power supply to supply power to the control device and the whole gas oven under the condition of outdoors or no external power supply, so that the gas oven has diversified application scenes and can be used indoors and outdoors.

Wherein, a pizza stone component 112 for placing pizza to be baked is provided in the cooking cavity 11. The pizza stone component is used for facilitating cooking of pizza, and hot air flows through the two combustion units enter the cooking cavity, so that the pizza stone component is heated, and the pizza is intelligently cooked. It should be understood that this is only possible by placing the pizza stone component while cooking pizza, and corresponding containers while cooking other foods, and is not intended to be limiting.

In addition, the burner body 1 is provided with a heat insulating cotton 14 and a reflecting plate 15 at the top of the cooking cavity 11, the reflecting plate 15 is positioned below the heat insulating cotton 14, and the reflecting plate 15 is arranged opposite to the pizza block assembly 112. The reflecting plate is arranged to reflect the hot air flow in the cooking cavity as far as possible towards the pizza stone component so as to cook pizza better. The arrangement of the heat insulation cotton 14 can prevent hot air from penetrating to the outside of the gas oven, so that scalding accidents occur, meanwhile, the heat insulation effect can be achieved, outward heat loss is avoided, the cooking effect is improved, and the energy is saved.

Example two

As shown in fig. 4 to 5, which are a second embodiment of an application method of an automatic temperature control burner according to the present invention, the present embodiment is similar to the embodiment, except that the cooking cavity 11 is provided with an electronic ignition device 3 for igniting and generating a flame at a position adjacent to the gas outlet of the combustion assembly 12, the electronic ignition device 3 is a high-pressure ignition, and the electronic ignition device 3 is electrically connected to the controller 23, so that the electronic ignition device 3 is conveniently controlled. The electronic ignition device 3 is only preferred and other intelligent ignition devices are possible.

Example III

Referring now to fig. 4-5, a third embodiment of an application method of an automatic temperature control burner according to the present invention is similar to the first embodiment, except that in step (2), a baffle 124 is installed near the pizza stone component 112 at the fire exit position of the combustion component 12, the combustion component 12 outputs fuel to ignite to generate flame, the flame is blocked by the baffle 124 to avoid directly burning the pizza stone component 112, and the hot air enters the cooking cavity 11 to heat the pizza stone component 112 and form a hot air ring around the pizza stone component 112 to cook food on the pizza stone component 112. It should be noted that such a baffle 124 is a front baffle and a rear baffle 125 may be provided at the top of the cooking cavity 11 of the burner body 1 in order to facilitate better cooking of the food in forming a hot air flow ring around the pizza bar assembly 112.

It is to be understood that the above examples of the present invention are provided by way of illustration only and not by way of limitation of the embodiments of the present invention. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the invention are desired to be protected by the following claims.

Claims (10)

1. The application method of the automatic temperature control burner is characterized by comprising a burner main body (1) and a temperature control device (2), wherein a cooking cavity (11) for cooking food and a combustion assembly (12) for conveying fuel to burn and providing heat for the cooking cavity (11) are arranged in the burner main body (1), and the temperature control device (2) is electrically connected with the combustion assembly (12); the temperature control application method comprises the following specific steps:

(1) The temperature control device (2) firstly selects the temperature required by cooking according to the type of food placed in the cooking cavity (12);

(2) The combustion assembly (12) transmits fuel gas through at least two independent fuel gas transmission channels, and the fuel gas burns to transmit heat into the cooking cavity (11), so that the temperature of the cooking cavity (11) is increased; wherein at least one gas conveying channel generates big fire to quickly raise the temperature in the cooking cavity (11), and the other gas conveying channel conveys smaller fire to keep the temperature in the cooking cavity (11);

(3) Sensing the temperature in the cooking cavity (11) in real time through a temperature sensing device (111) arranged in the cooking cavity (11), transmitting corresponding signals to a temperature control device (2), judging the temperature and the selected cooking required temperature by the temperature control device (2), and if the temperature is lower than the selected cooking required temperature, continuously transmitting gas combustion by a combustion assembly (12) to transmit heat to the cooking cavity (11); if the selected temperature required for cooking is reached, the temperature control device (2) controls the combustion assembly (12), correspondingly controls at least two independent fuel gas conveying channels to match the temperature required for cooking, and keeps the temperature;

(4) Cooking is continued until the food is cooked, and then the temperature control device (2) controls the combustion assembly (12) to stop working.

2. The method of using an automatic temperature-controlled burner according to claim 1, wherein in the step (3), the bistable solenoid valve (21) of the temperature control device (2) is installed on the gas delivery passage generating the large fire power, and the operating state of the gas delivery passage generating the large fire power is controlled by opening or closing the bistable solenoid valve (21) to control the temperature in the cooking chamber (11).

3. The method of using an automatic temperature-controlled burner according to claim 2, wherein in step (3), a dual coil solenoid valve (22) is installed on the total gas delivery passage (121) of the combustion assembly (12) in the temperature control device (2), and the dual coil solenoid valve (22) automatically closes the total gas delivery passage (121) to prevent gas leakage when the cooking process is completed or the burner is abnormally turned off.

4. The method for using an automatic temperature-controlled burner according to claim 3, wherein in the step (2), a thermocouple assembly (123) is installed at the fire outlet position of the combustion assembly (12), after the output fuel gas of the combustion assembly (12) is ignited, the thermocouple assembly (123) generates high temperature by the burning flame to enable the thermocouple assembly (123) to generate current to load on the main coil of the double coil electromagnetic valve (22), so that the double coil electromagnetic valve (22) on the channel of the total fuel gas conveying channel (121) is in an open state, and the fuel gas normally flows, so that the burner normally works.

5. A method of using an automatic temperature-controlled burner according to claim 3, wherein in step (3), when the cooking process is not completed, flame is extinguished due to strong wind or other abnormal reasons, the thermocouple assembly (123) does not output current to the main coil of the double coil electromagnetic valve (22), and the double coil electromagnetic valve (22) closes the total fuel gas delivery passage (121) under the action of mechanical elastic force, thereby preventing fuel gas leakage and ensuring safety.

6. A method of using an automatic temperature controlled burner according to claim 3, characterized in that the control device (2) is provided with a controller (23), the controller (23) being electrically connected to the temperature sensing device (111), the bistable solenoid valve (21) and the double coil solenoid valve (22).

7. The method of using an automatic temperature controlled burner according to any one of claims 1 to 7, wherein the burner body (1) is provided with a direct current power supply (13) for providing power to the burner body (1).

8. The use of an automatic temperature-controlled burner according to any one of claims 1 to 7, characterized in that a pizza block assembly (112) for placing the pizza to be baked is provided inside the cooking cavity (11).

9. The application method of the automatic temperature control burner according to claim 8, wherein the burner main body (1) is provided with heat insulation cotton (14) and a reflecting plate (15) at the top of the cooking cavity (11), the reflecting plate (15) is positioned below the heat insulation cotton (14), and the reflecting plate (18) is arranged opposite to the pizza block assembly (112).

10. The method of claim 9, wherein in step (2), a baffle (124) is installed near the pizza stone component (112) at the fire exit position of the combustion component (12), the fire is blocked by the baffle (124) and is prevented from directly burning the pizza stone component (112), the hot air enters the cooking cavity (11) to heat the pizza stone component (112) and form a hot air ring surrounding the pizza stone component (112), and the food on the pizza stone component (112) is cooked.